tipo de financiamento |
Fundação para a Ciência e a Tecnologia |
programa |
FCT/PTDC/2008 |
acrónimo/
referência |
PTDC/CTM/108446/2008 |
referência alternative |
FCOMP-01-0124-FEDER-009477 |
departamento |
Materials and Ceramic Engineering (DEMaC) |
período de execução |
2010-05-01 - 2013-04-30 (
36 Meses )
|
data de extensão projeto |
2013-10-31 (
6 Meses extra )
|
resumo/
palavras-chave |
Corrosão Materiais compósitos Inibidor Metais |
coordenador
/ip local |
Mikhail Zheludkevich |
ciceco status |
Coordenador |
instituíção proponente |
Universidade de Aveiro (UA) |
instituições participante(s) |
Instituto Superior Técnico (IST/UTL)
|
participação industrial |
Não |
parceiro(s) internacional |
Não |
orçamento total |
140.000€
|
orçamento ciceco |
140.000€
|
centro de custos |
3.89.132 |
link |
http://www.fct.pt/apoios/projectos/consulta/vglobal_projecto?idProjecto=108446&idElemConcurso=2712
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Modification of carbon fibre reinforced polymer (CFRP) surface with sodium dodecyl sulphate for mitigation of cathodic activityOfoegbu, SU; Yasakau, K; Kallip, S; Nogueira, HIS; Ferreira, MGS; Zheludkevich, ML 2019, APPLIED SURFACE SCIENCE, 478, 924-936.
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All-Diamond Microelectrodes as Solid State Probes for Localized Electrochemical SensingSilva, EL; Gouvea, CP; Quevedo, MC; Neto, MA; Archanjo, BS; Fernandes, AJS; Achete, CA; Silva, RF; Zheludkevich, ML; Oliveira, FJ 2015, ANALYTICAL CHEMISTRY, 87, 13, 6487-6492.
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Carbonate-Free Zn-Al (1:1) Layered Double Hydroxide Film Directly Grown on Zinc-Aluminum Alloy CoatingSalak, AN; Lisenkov, AD; Zheludkevich, ML; Ferreira, MGS 2014, ECS ELECTROCHEMISTRY LETTERS, 3, 1, C9-C11.
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New fluorinated diamond microelectrodes for localized detection of dissolved oxygenSilva, E; Bastos, AC; Neto, M; Fernandes, AJ; Silva, R; Ferreira, MGS; Zheludkevich, M; Oliveira, F 2014, SENSORS AND ACTUATORS B-CHEMICAL, 204, 544-551.
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Novel diamond microelectrode for pH sensingSilva, EL; Bastos, AC; Neto, MA; Silva, RF; Ferreira, MGS; Zheludkevich, ML; Oliveira, FJ 2014, ELECTROCHEMISTRY COMMUNICATIONS, 40, 31-34.
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Novel electrochemical method of fast and reproducible fabrication of metallic nanoelectrodesSilva, EL; Silva, RF; Zheludkevich, M; Oliveira, FJ 2014, REVIEW OF SCIENTIFIC INSTRUMENTS, 85, 9,
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Cut-edge corrosion study on painted aluminum rich metallic coated steel by scanning vibrating electrode and micro-potentiometric techniquesAlvarez-Pampliega, A; Lamaka, SV; Taryba, MG; Madani, M; De Strycker, J; Tourwe, E; Ferreira, MGS; Terryn, H 2012, ELECTROCHIMICA ACTA, 61, 107-117.
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Evaluation of self-healing ability in protective coatings modified with combinations of layered double hydroxides and cerium molibdate nanocontainers filled with corrosion inhibitorsMontemor, MF; Snihirova, DV; Taryba, MG; Lamaka, SV; Kartsonakis, IA; Balaskas, AC; Kordas, G; Tedim, J; Kuznetsova, A; Zheludkevich, ML; Ferreira, MGS 2012, ELECTROCHIMICA ACTA, 60, 31-40.
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Quasi-simultaneous measurements of ionic currents by vibrating probe and pH distribution by ion-selective microelectrodeLamaka, SV; Taryba, M; Montemor, MF; Isaacs, HS; Ferreira, MGS 2011, ELECTROCHEMISTRY COMMUNICATIONS, 13, 1, 20-23.
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The combined use of scanning vibrating electrode technique and micro-potentiometry to assess the self-repair processes in defects on "smart" coatings applied to galvanized steelTaryba, M; Lamaka, SV; Snihirova, D; Ferreira, MGS; Montemor, MF; Wijting, WK; Toews, S; Grundmeier, G 2011, ELECTROCHIMICA ACTA, 56, 12, 4475-4488.
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A multi-electrode cell for high-throughput SVET screening of corrosion inhibitorsKallip, S; Bastos, AC; Zheludkevich, ML; Ferreira, MGS 2010, CORROSION SCIENCE, 52, 9, 3146-3149.
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